Climate change and population growth are straining agricultural output. To counter these
changes and meet the growing demand for food and energy, the monitoring and …

Nanobiotechnology has the potential to enable smart plant sensors that communicate with
and actuate electronic devices for improving plant productivity, optimize and automate water …

An understanding of plant biology is essential to solving many long-standing global
challenges, including sustainable and secure food production and the generation of …

Nano-enabled agriculture is a topic of intense research interest. However, our knowledge of
how nanoparticles enter plants, plant cells, and organelles is still insufficient. Here, we …

Nanocarriers (NCs) that can precisely deliver active agents, nutrients and genetic materials
into plants will make crop agriculture more resilient to climate change and sustainable. As a …

The thriving nano-enabled agriculture facilitates the interaction of nanomaterials with plants.
Recently, these interactions and their biological effects are receiving increasing attention …

Fundamental and quantitative understanding of the interactions between nanoparticles and
plant leaves is crucial for advancing the field of nanoenabled agriculture. Herein, we …

Nano-sized materials have been developed to exhibit novel characteristics, such as high
surface area, morphology, tunable pore size, and high reactivity, compared with the …

The interplay between nanoparticles (NPs) and plants greatly promotes the development of
research fields like nanotechnology, agriculture, food science, electrical engineering and …

Nano-biosensors can play an important role in revolutionizing the agriculture through the
development of next generation diagnostic tools and techniques. Recently, there has been a …